moby/integration-cli/docker_cli_network_unix_test.go
Sebastiaan van Stijn 6d92d2c7c4
TestConntrackFlowsLeak: use busybox "nc"
The appropriate/nc image was last built over 6 years ago, and uses the
deprecated v2 schema 1 format.
https://github.com/appropriate/docker-nc/tree/master/latest

The image is just a plain "apk install" of netbsd-netcat, but was added
in 1c4286bcff, because at the time the
busybox nc had some bugs.

These appear to be resolved, so we can use the busybox nc, from the
frozen images.

Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2021-11-19 09:27:12 +01:00

1788 lines
70 KiB
Go

//go:build !windows
// +build !windows
package main
import (
"encoding/json"
"fmt"
"net"
"net/http"
"net/http/httptest"
"os"
"strings"
"testing"
"time"
"github.com/docker/docker/api/types"
"github.com/docker/docker/api/types/versions/v1p20"
"github.com/docker/docker/integration-cli/cli"
"github.com/docker/docker/integration-cli/daemon"
"github.com/docker/docker/libnetwork/driverapi"
remoteapi "github.com/docker/docker/libnetwork/drivers/remote/api"
"github.com/docker/docker/libnetwork/ipamapi"
remoteipam "github.com/docker/docker/libnetwork/ipams/remote/api"
"github.com/docker/docker/libnetwork/netlabel"
"github.com/docker/docker/pkg/stringid"
"github.com/docker/docker/runconfig"
testdaemon "github.com/docker/docker/testutil/daemon"
"github.com/vishvananda/netlink"
"golang.org/x/sys/unix"
"gotest.tools/v3/assert"
"gotest.tools/v3/icmd"
)
const dummyNetworkDriver = "dummy-network-driver"
const dummyIPAMDriver = "dummy-ipam-driver"
var remoteDriverNetworkRequest remoteapi.CreateNetworkRequest
func (s *DockerNetworkSuite) SetUpTest(c *testing.T) {
s.d = daemon.New(c, dockerBinary, dockerdBinary, testdaemon.WithEnvironment(testEnv.Execution))
}
func (s *DockerNetworkSuite) TearDownTest(c *testing.T) {
if s.d != nil {
s.d.Stop(c)
s.ds.TearDownTest(c)
}
}
func (s *DockerNetworkSuite) SetUpSuite(c *testing.T) {
mux := http.NewServeMux()
s.server = httptest.NewServer(mux)
assert.Assert(c, s.server != nil, "Failed to start an HTTP Server")
setupRemoteNetworkDrivers(c, mux, s.server.URL, dummyNetworkDriver, dummyIPAMDriver)
}
func setupRemoteNetworkDrivers(c *testing.T, mux *http.ServeMux, url, netDrv, ipamDrv string) {
mux.HandleFunc("/Plugin.Activate", func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, `{"Implements": ["%s", "%s"]}`, driverapi.NetworkPluginEndpointType, ipamapi.PluginEndpointType)
})
// Network driver implementation
mux.HandleFunc(fmt.Sprintf("/%s.GetCapabilities", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, `{"Scope":"local"}`)
})
mux.HandleFunc(fmt.Sprintf("/%s.CreateNetwork", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
err := json.NewDecoder(r.Body).Decode(&remoteDriverNetworkRequest)
if err != nil {
http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest)
return
}
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, "null")
})
mux.HandleFunc(fmt.Sprintf("/%s.DeleteNetwork", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, "null")
})
mux.HandleFunc(fmt.Sprintf("/%s.CreateEndpoint", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, `{"Interface":{"MacAddress":"a0:b1:c2:d3:e4:f5"}}`)
})
mux.HandleFunc(fmt.Sprintf("/%s.Join", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
veth := &netlink.Veth{
LinkAttrs: netlink.LinkAttrs{Name: "randomIfName", TxQLen: 0}, PeerName: "cnt0"}
if err := netlink.LinkAdd(veth); err != nil {
fmt.Fprintf(w, `{"Error":"failed to add veth pair: `+err.Error()+`"}`)
} else {
fmt.Fprintf(w, `{"InterfaceName":{ "SrcName":"cnt0", "DstPrefix":"veth"}}`)
}
})
mux.HandleFunc(fmt.Sprintf("/%s.Leave", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, "null")
})
mux.HandleFunc(fmt.Sprintf("/%s.DeleteEndpoint", driverapi.NetworkPluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
if link, err := netlink.LinkByName("cnt0"); err == nil {
netlink.LinkDel(link)
}
fmt.Fprintf(w, "null")
})
// IPAM Driver implementation
var (
poolRequest remoteipam.RequestPoolRequest
poolReleaseReq remoteipam.ReleasePoolRequest
addressRequest remoteipam.RequestAddressRequest
addressReleaseReq remoteipam.ReleaseAddressRequest
lAS = "localAS"
gAS = "globalAS"
pool = "172.28.0.0/16"
poolID = lAS + "/" + pool
gw = "172.28.255.254/16"
)
mux.HandleFunc(fmt.Sprintf("/%s.GetDefaultAddressSpaces", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
fmt.Fprintf(w, `{"LocalDefaultAddressSpace":"`+lAS+`", "GlobalDefaultAddressSpace": "`+gAS+`"}`)
})
mux.HandleFunc(fmt.Sprintf("/%s.RequestPool", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
err := json.NewDecoder(r.Body).Decode(&poolRequest)
if err != nil {
http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest)
return
}
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
if poolRequest.AddressSpace != lAS && poolRequest.AddressSpace != gAS {
fmt.Fprintf(w, `{"Error":"Unknown address space in pool request: `+poolRequest.AddressSpace+`"}`)
} else if poolRequest.Pool != "" && poolRequest.Pool != pool {
fmt.Fprintf(w, `{"Error":"Cannot handle explicit pool requests yet"}`)
} else {
fmt.Fprintf(w, `{"PoolID":"`+poolID+`", "Pool":"`+pool+`"}`)
}
})
mux.HandleFunc(fmt.Sprintf("/%s.RequestAddress", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
err := json.NewDecoder(r.Body).Decode(&addressRequest)
if err != nil {
http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest)
return
}
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
// make sure libnetwork is now querying on the expected pool id
if addressRequest.PoolID != poolID {
fmt.Fprintf(w, `{"Error":"unknown pool id"}`)
} else if addressRequest.Address != "" {
fmt.Fprintf(w, `{"Error":"Cannot handle explicit address requests yet"}`)
} else {
fmt.Fprintf(w, `{"Address":"`+gw+`"}`)
}
})
mux.HandleFunc(fmt.Sprintf("/%s.ReleaseAddress", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
err := json.NewDecoder(r.Body).Decode(&addressReleaseReq)
if err != nil {
http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest)
return
}
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
// make sure libnetwork is now asking to release the expected address from the expected poolid
if addressRequest.PoolID != poolID {
fmt.Fprintf(w, `{"Error":"unknown pool id"}`)
} else if addressReleaseReq.Address != gw {
fmt.Fprintf(w, `{"Error":"unknown address"}`)
} else {
fmt.Fprintf(w, "null")
}
})
mux.HandleFunc(fmt.Sprintf("/%s.ReleasePool", ipamapi.PluginEndpointType), func(w http.ResponseWriter, r *http.Request) {
err := json.NewDecoder(r.Body).Decode(&poolReleaseReq)
if err != nil {
http.Error(w, "Unable to decode JSON payload: "+err.Error(), http.StatusBadRequest)
return
}
w.Header().Set("Content-Type", "application/vnd.docker.plugins.v1+json")
// make sure libnetwork is now asking to release the expected poolid
if addressRequest.PoolID != poolID {
fmt.Fprintf(w, `{"Error":"unknown pool id"}`)
} else {
fmt.Fprintf(w, "null")
}
})
err := os.MkdirAll("/etc/docker/plugins", 0755)
assert.NilError(c, err)
fileName := fmt.Sprintf("/etc/docker/plugins/%s.spec", netDrv)
err = os.WriteFile(fileName, []byte(url), 0644)
assert.NilError(c, err)
ipamFileName := fmt.Sprintf("/etc/docker/plugins/%s.spec", ipamDrv)
err = os.WriteFile(ipamFileName, []byte(url), 0644)
assert.NilError(c, err)
}
func (s *DockerNetworkSuite) TearDownSuite(c *testing.T) {
if s.server == nil {
return
}
s.server.Close()
err := os.RemoveAll("/etc/docker/plugins")
assert.NilError(c, err)
}
func assertNwIsAvailable(c *testing.T, name string) {
if !isNwPresent(c, name) {
c.Fatalf("Network %s not found in network ls o/p", name)
}
}
func assertNwNotAvailable(c *testing.T, name string) {
if isNwPresent(c, name) {
c.Fatalf("Found network %s in network ls o/p", name)
}
}
func isNwPresent(c *testing.T, name string) bool {
out, _ := dockerCmd(c, "network", "ls")
lines := strings.Split(out, "\n")
for i := 1; i < len(lines)-1; i++ {
netFields := strings.Fields(lines[i])
if netFields[1] == name {
return true
}
}
return false
}
// assertNwList checks network list retrieved with ls command
// equals to expected network list
// note: out should be `network ls [option]` result
func assertNwList(c *testing.T, out string, expectNws []string) {
lines := strings.Split(out, "\n")
var nwList []string
for _, line := range lines[1 : len(lines)-1] {
netFields := strings.Fields(line)
// wrap all network name in nwList
nwList = append(nwList, netFields[1])
}
// network ls should contains all expected networks
assert.DeepEqual(c, nwList, expectNws)
}
func getNwResource(c *testing.T, name string) *types.NetworkResource {
out, _ := dockerCmd(c, "network", "inspect", name)
var nr []types.NetworkResource
err := json.Unmarshal([]byte(out), &nr)
assert.NilError(c, err)
return &nr[0]
}
func (s *DockerNetworkSuite) TestDockerNetworkLsDefault(c *testing.T) {
defaults := []string{"bridge", "host", "none"}
for _, nn := range defaults {
assertNwIsAvailable(c, nn)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkCreatePredefined(c *testing.T) {
predefined := []string{"bridge", "host", "none", "default"}
for _, net := range predefined {
// predefined networks can't be created again
out, _, err := dockerCmdWithError("network", "create", net)
assert.ErrorContains(c, err, "", out)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkCreateHostBind(c *testing.T) {
dockerCmd(c, "network", "create", "--subnet=192.168.10.0/24", "--gateway=192.168.10.1", "-o", "com.docker.network.bridge.host_binding_ipv4=192.168.10.1", "testbind")
assertNwIsAvailable(c, "testbind")
out := runSleepingContainer(c, "--net=testbind", "-p", "5000:5000")
id := strings.TrimSpace(out)
assert.NilError(c, waitRun(id))
out, _ = dockerCmd(c, "ps")
assert.Assert(c, strings.Contains(out, "192.168.10.1:5000->5000/tcp"))
}
func (s *DockerNetworkSuite) TestDockerNetworkRmPredefined(c *testing.T) {
predefined := []string{"bridge", "host", "none", "default"}
for _, net := range predefined {
// predefined networks can't be removed
out, _, err := dockerCmdWithError("network", "rm", net)
assert.ErrorContains(c, err, "", out)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkLsFilter(c *testing.T) {
testRequires(c, OnlyDefaultNetworks)
testNet := "testnet1"
testLabel := "foo"
testValue := "bar"
out, _ := dockerCmd(c, "network", "create", "dev")
defer func() {
dockerCmd(c, "network", "rm", "dev")
dockerCmd(c, "network", "rm", testNet)
}()
networkID := strings.TrimSpace(out)
// filter with partial ID
// only show 'dev' network
out, _ = dockerCmd(c, "network", "ls", "-f", "id="+networkID[0:5])
assertNwList(c, out, []string{"dev"})
out, _ = dockerCmd(c, "network", "ls", "-f", "name=dge")
assertNwList(c, out, []string{"bridge"})
// only show built-in network (bridge, none, host)
out, _ = dockerCmd(c, "network", "ls", "-f", "type=builtin")
assertNwList(c, out, []string{"bridge", "host", "none"})
// only show custom networks (dev)
out, _ = dockerCmd(c, "network", "ls", "-f", "type=custom")
assertNwList(c, out, []string{"dev"})
// show all networks with filter
// it should be equivalent of ls without option
out, _ = dockerCmd(c, "network", "ls", "-f", "type=custom", "-f", "type=builtin")
assertNwList(c, out, []string{"bridge", "dev", "host", "none"})
dockerCmd(c, "network", "create", "--label", testLabel+"="+testValue, testNet)
assertNwIsAvailable(c, testNet)
out, _ = dockerCmd(c, "network", "ls", "-f", "label="+testLabel)
assertNwList(c, out, []string{testNet})
out, _ = dockerCmd(c, "network", "ls", "-f", "label="+testLabel+"="+testValue)
assertNwList(c, out, []string{testNet})
out, _ = dockerCmd(c, "network", "ls", "-f", "label=nonexistent")
outArr := strings.Split(strings.TrimSpace(out), "\n")
assert.Equal(c, len(outArr), 1, fmt.Sprintf("%s\n", out))
out, _ = dockerCmd(c, "network", "ls", "-f", "driver=null")
assertNwList(c, out, []string{"none"})
out, _ = dockerCmd(c, "network", "ls", "-f", "driver=host")
assertNwList(c, out, []string{"host"})
out, _ = dockerCmd(c, "network", "ls", "-f", "driver=bridge")
assertNwList(c, out, []string{"bridge", "dev", testNet})
}
func (s *DockerNetworkSuite) TestDockerNetworkCreateDelete(c *testing.T) {
dockerCmd(c, "network", "create", "test")
assertNwIsAvailable(c, "test")
dockerCmd(c, "network", "rm", "test")
assertNwNotAvailable(c, "test")
}
func (s *DockerNetworkSuite) TestDockerNetworkCreateLabel(c *testing.T) {
testNet := "testnetcreatelabel"
testLabel := "foo"
testValue := "bar"
dockerCmd(c, "network", "create", "--label", testLabel+"="+testValue, testNet)
assertNwIsAvailable(c, testNet)
out, _, err := dockerCmdWithError("network", "inspect", "--format={{ .Labels."+testLabel+" }}", testNet)
assert.NilError(c, err)
assert.Equal(c, strings.TrimSpace(out), testValue)
dockerCmd(c, "network", "rm", testNet)
assertNwNotAvailable(c, testNet)
}
func (s *DockerSuite) TestDockerNetworkDeleteNotExists(c *testing.T) {
out, _, err := dockerCmdWithError("network", "rm", "test")
assert.ErrorContains(c, err, "", out)
}
func (s *DockerSuite) TestDockerNetworkDeleteMultiple(c *testing.T) {
dockerCmd(c, "network", "create", "testDelMulti0")
assertNwIsAvailable(c, "testDelMulti0")
dockerCmd(c, "network", "create", "testDelMulti1")
assertNwIsAvailable(c, "testDelMulti1")
dockerCmd(c, "network", "create", "testDelMulti2")
assertNwIsAvailable(c, "testDelMulti2")
out, _ := dockerCmd(c, "run", "-d", "--net", "testDelMulti2", "busybox", "top")
containerID := strings.TrimSpace(out)
waitRun(containerID)
// delete three networks at the same time, since testDelMulti2
// contains active container, its deletion should fail.
out, _, err := dockerCmdWithError("network", "rm", "testDelMulti0", "testDelMulti1", "testDelMulti2")
// err should not be nil due to deleting testDelMulti2 failed.
assert.Assert(c, err != nil, "out: %s", out)
// testDelMulti2 should fail due to network has active endpoints
assert.Assert(c, strings.Contains(out, "has active endpoints"))
assertNwNotAvailable(c, "testDelMulti0")
assertNwNotAvailable(c, "testDelMulti1")
// testDelMulti2 can't be deleted, so it should exist
assertNwIsAvailable(c, "testDelMulti2")
}
func (s *DockerSuite) TestDockerNetworkInspect(c *testing.T) {
out, _ := dockerCmd(c, "network", "inspect", "host")
var networkResources []types.NetworkResource
err := json.Unmarshal([]byte(out), &networkResources)
assert.NilError(c, err)
assert.Equal(c, len(networkResources), 1)
out, _ = dockerCmd(c, "network", "inspect", "--format={{ .Name }}", "host")
assert.Equal(c, strings.TrimSpace(out), "host")
}
func (s *DockerSuite) TestDockerNetworkInspectWithID(c *testing.T) {
out, _ := dockerCmd(c, "network", "create", "test2")
networkID := strings.TrimSpace(out)
assertNwIsAvailable(c, "test2")
out, _ = dockerCmd(c, "network", "inspect", "--format={{ .Id }}", "test2")
assert.Equal(c, strings.TrimSpace(out), networkID)
out, _ = dockerCmd(c, "network", "inspect", "--format={{ .ID }}", "test2")
assert.Equal(c, strings.TrimSpace(out), networkID)
}
func (s *DockerSuite) TestDockerInspectMultipleNetwork(c *testing.T) {
result := dockerCmdWithResult("network", "inspect", "host", "none")
result.Assert(c, icmd.Success)
var networkResources []types.NetworkResource
err := json.Unmarshal([]byte(result.Stdout()), &networkResources)
assert.NilError(c, err)
assert.Equal(c, len(networkResources), 2)
}
func (s *DockerSuite) TestDockerInspectMultipleNetworksIncludingNonexistent(c *testing.T) {
// non-existent network was not at the beginning of the inspect list
// This should print an error, return an exitCode 1 and print the host network
result := dockerCmdWithResult("network", "inspect", "host", "nonexistent")
result.Assert(c, icmd.Expected{
ExitCode: 1,
Err: "Error: No such network: nonexistent",
Out: "host",
})
var networkResources []types.NetworkResource
err := json.Unmarshal([]byte(result.Stdout()), &networkResources)
assert.NilError(c, err)
assert.Equal(c, len(networkResources), 1)
// Only one non-existent network to inspect
// Should print an error and return an exitCode, nothing else
result = dockerCmdWithResult("network", "inspect", "nonexistent")
result.Assert(c, icmd.Expected{
ExitCode: 1,
Err: "Error: No such network: nonexistent",
Out: "[]",
})
// non-existent network was at the beginning of the inspect list
// Should not fail fast, and still print host network but print an error
result = dockerCmdWithResult("network", "inspect", "nonexistent", "host")
result.Assert(c, icmd.Expected{
ExitCode: 1,
Err: "Error: No such network: nonexistent",
Out: "host",
})
networkResources = []types.NetworkResource{}
err = json.Unmarshal([]byte(result.Stdout()), &networkResources)
assert.NilError(c, err)
assert.Equal(c, len(networkResources), 1)
}
func (s *DockerSuite) TestDockerInspectNetworkWithContainerName(c *testing.T) {
dockerCmd(c, "network", "create", "brNetForInspect")
assertNwIsAvailable(c, "brNetForInspect")
defer func() {
dockerCmd(c, "network", "rm", "brNetForInspect")
assertNwNotAvailable(c, "brNetForInspect")
}()
out, _ := dockerCmd(c, "run", "-d", "--name", "testNetInspect1", "--net", "brNetForInspect", "busybox", "top")
assert.Assert(c, waitRun("testNetInspect1") == nil)
containerID := strings.TrimSpace(out)
defer func() {
// we don't stop container by name, because we'll rename it later
dockerCmd(c, "stop", containerID)
}()
out, _ = dockerCmd(c, "network", "inspect", "brNetForInspect")
var networkResources []types.NetworkResource
err := json.Unmarshal([]byte(out), &networkResources)
assert.NilError(c, err)
assert.Equal(c, len(networkResources), 1)
container, ok := networkResources[0].Containers[containerID]
assert.Assert(c, ok)
assert.Equal(c, container.Name, "testNetInspect1")
// rename container and check docker inspect output update
newName := "HappyNewName"
dockerCmd(c, "rename", "testNetInspect1", newName)
// check whether network inspect works properly
out, _ = dockerCmd(c, "network", "inspect", "brNetForInspect")
var newNetRes []types.NetworkResource
err = json.Unmarshal([]byte(out), &newNetRes)
assert.NilError(c, err)
assert.Equal(c, len(newNetRes), 1)
container1, ok := newNetRes[0].Containers[containerID]
assert.Assert(c, ok)
assert.Equal(c, container1.Name, newName)
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnect(c *testing.T) {
dockerCmd(c, "network", "create", "test")
assertNwIsAvailable(c, "test")
nr := getNwResource(c, "test")
assert.Equal(c, nr.Name, "test")
assert.Equal(c, len(nr.Containers), 0)
// run a container
out, _ := dockerCmd(c, "run", "-d", "--name", "test", "busybox", "top")
assert.Assert(c, waitRun("test") == nil)
containerID := strings.TrimSpace(out)
// connect the container to the test network
dockerCmd(c, "network", "connect", "test", containerID)
// inspect the network to make sure container is connected
nr = getNetworkResource(c, nr.ID)
assert.Equal(c, len(nr.Containers), 1)
// check if container IP matches network inspect
ip, _, err := net.ParseCIDR(nr.Containers[containerID].IPv4Address)
assert.NilError(c, err)
containerIP := findContainerIP(c, "test", "test")
assert.Equal(c, ip.String(), containerIP)
// disconnect container from the network
dockerCmd(c, "network", "disconnect", "test", containerID)
nr = getNwResource(c, "test")
assert.Equal(c, nr.Name, "test")
assert.Equal(c, len(nr.Containers), 0)
// run another container
out, _ = dockerCmd(c, "run", "-d", "--net", "test", "--name", "test2", "busybox", "top")
assert.Assert(c, waitRun("test2") == nil)
containerID = strings.TrimSpace(out)
nr = getNwResource(c, "test")
assert.Equal(c, nr.Name, "test")
assert.Equal(c, len(nr.Containers), 1)
// force disconnect the container to the test network
dockerCmd(c, "network", "disconnect", "-f", "test", containerID)
nr = getNwResource(c, "test")
assert.Equal(c, nr.Name, "test")
assert.Equal(c, len(nr.Containers), 0)
dockerCmd(c, "network", "rm", "test")
assertNwNotAvailable(c, "test")
}
func (s *DockerNetworkSuite) TestDockerNetworkIPAMMultipleNetworks(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// test0 bridge network
dockerCmd(c, "network", "create", "--subnet=192.168.0.0/16", "test1")
assertNwIsAvailable(c, "test1")
// test2 bridge network does not overlap
dockerCmd(c, "network", "create", "--subnet=192.169.0.0/16", "test2")
assertNwIsAvailable(c, "test2")
// for networks w/o ipam specified, docker will choose proper non-overlapping subnets
dockerCmd(c, "network", "create", "test3")
assertNwIsAvailable(c, "test3")
dockerCmd(c, "network", "create", "test4")
assertNwIsAvailable(c, "test4")
dockerCmd(c, "network", "create", "test5")
assertNwIsAvailable(c, "test5")
// test network with multiple subnets
// bridge network doesn't support multiple subnets. hence, use a dummy driver that supports
dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, "--subnet=192.170.0.0/16", "--subnet=192.171.0.0/16", "test6")
assertNwIsAvailable(c, "test6")
// test network with multiple subnets with valid ipam combinations
// also check same subnet across networks when the driver supports it.
dockerCmd(c, "network", "create", "-d", dummyNetworkDriver,
"--subnet=192.172.0.0/16", "--subnet=192.173.0.0/16",
"--gateway=192.172.0.100", "--gateway=192.173.0.100",
"--ip-range=192.172.1.0/24",
"--aux-address", "a=192.172.1.5", "--aux-address", "b=192.172.1.6",
"--aux-address", "c=192.173.1.5", "--aux-address", "d=192.173.1.6",
"test7")
assertNwIsAvailable(c, "test7")
// cleanup
for i := 1; i < 8; i++ {
dockerCmd(c, "network", "rm", fmt.Sprintf("test%d", i))
}
}
func (s *DockerNetworkSuite) TestDockerNetworkCustomIPAM(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// Create a bridge network using custom ipam driver
dockerCmd(c, "network", "create", "--ipam-driver", dummyIPAMDriver, "br0")
assertNwIsAvailable(c, "br0")
// Verify expected network ipam fields are there
nr := getNetworkResource(c, "br0")
assert.Equal(c, nr.Driver, "bridge")
assert.Equal(c, nr.IPAM.Driver, dummyIPAMDriver)
// remove network and exercise remote ipam driver
dockerCmd(c, "network", "rm", "br0")
assertNwNotAvailable(c, "br0")
}
func (s *DockerNetworkSuite) TestDockerNetworkIPAMOptions(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// Create a bridge network using custom ipam driver and options
dockerCmd(c, "network", "create", "--ipam-driver", dummyIPAMDriver, "--ipam-opt", "opt1=drv1", "--ipam-opt", "opt2=drv2", "br0")
assertNwIsAvailable(c, "br0")
// Verify expected network ipam options
nr := getNetworkResource(c, "br0")
opts := nr.IPAM.Options
assert.Equal(c, opts["opt1"], "drv1")
assert.Equal(c, opts["opt2"], "drv2")
}
func (s *DockerNetworkSuite) TestDockerNetworkNullIPAMDriver(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// Create a network with null ipam driver
_, _, err := dockerCmdWithError("network", "create", "-d", dummyNetworkDriver, "--ipam-driver", "null", "test000")
assert.NilError(c, err)
assertNwIsAvailable(c, "test000")
// Verify the inspect data contains the default subnet provided by the null
// ipam driver and no gateway, as the null ipam driver does not provide one
nr := getNetworkResource(c, "test000")
assert.Equal(c, nr.IPAM.Driver, "null")
assert.Equal(c, len(nr.IPAM.Config), 1)
assert.Equal(c, nr.IPAM.Config[0].Subnet, "0.0.0.0/0")
assert.Equal(c, nr.IPAM.Config[0].Gateway, "")
}
func (s *DockerNetworkSuite) TestDockerNetworkInspectDefault(c *testing.T) {
nr := getNetworkResource(c, "none")
assert.Equal(c, nr.Driver, "null")
assert.Equal(c, nr.Scope, "local")
assert.Equal(c, nr.Internal, false)
assert.Equal(c, nr.EnableIPv6, false)
assert.Equal(c, nr.IPAM.Driver, "default")
assert.Equal(c, len(nr.IPAM.Config), 0)
nr = getNetworkResource(c, "host")
assert.Equal(c, nr.Driver, "host")
assert.Equal(c, nr.Scope, "local")
assert.Equal(c, nr.Internal, false)
assert.Equal(c, nr.EnableIPv6, false)
assert.Equal(c, nr.IPAM.Driver, "default")
assert.Equal(c, len(nr.IPAM.Config), 0)
nr = getNetworkResource(c, "bridge")
assert.Equal(c, nr.Driver, "bridge")
assert.Equal(c, nr.Scope, "local")
assert.Equal(c, nr.Internal, false)
assert.Equal(c, nr.EnableIPv6, false)
assert.Equal(c, nr.IPAM.Driver, "default")
assert.Equal(c, len(nr.IPAM.Config), 1)
}
func (s *DockerNetworkSuite) TestDockerNetworkInspectCustomUnspecified(c *testing.T) {
// if unspecified, network subnet will be selected from inside preferred pool
dockerCmd(c, "network", "create", "test01")
assertNwIsAvailable(c, "test01")
nr := getNetworkResource(c, "test01")
assert.Equal(c, nr.Driver, "bridge")
assert.Equal(c, nr.Scope, "local")
assert.Equal(c, nr.Internal, false)
assert.Equal(c, nr.EnableIPv6, false)
assert.Equal(c, nr.IPAM.Driver, "default")
assert.Equal(c, len(nr.IPAM.Config), 1)
dockerCmd(c, "network", "rm", "test01")
assertNwNotAvailable(c, "test01")
}
func (s *DockerNetworkSuite) TestDockerNetworkInspectCustomSpecified(c *testing.T) {
dockerCmd(c, "network", "create", "--driver=bridge", "--ipv6", "--subnet=fd80:24e2:f998:72d6::/64", "--subnet=172.28.0.0/16", "--ip-range=172.28.5.0/24", "--gateway=172.28.5.254", "br0")
assertNwIsAvailable(c, "br0")
nr := getNetworkResource(c, "br0")
assert.Equal(c, nr.Driver, "bridge")
assert.Equal(c, nr.Scope, "local")
assert.Equal(c, nr.Internal, false)
assert.Equal(c, nr.EnableIPv6, true)
assert.Equal(c, nr.IPAM.Driver, "default")
assert.Equal(c, len(nr.IPAM.Config), 2)
assert.Equal(c, nr.IPAM.Config[0].Subnet, "172.28.0.0/16")
assert.Equal(c, nr.IPAM.Config[0].IPRange, "172.28.5.0/24")
assert.Equal(c, nr.IPAM.Config[0].Gateway, "172.28.5.254")
assert.Equal(c, nr.Internal, false)
dockerCmd(c, "network", "rm", "br0")
assertNwNotAvailable(c, "br0")
}
func (s *DockerNetworkSuite) TestDockerNetworkIPAMInvalidCombinations(c *testing.T) {
// network with ip-range out of subnet range
_, _, err := dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--ip-range=192.170.0.0/16", "test")
assert.ErrorContains(c, err, "")
// network with multiple gateways for a single subnet
_, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--gateway=192.168.0.1", "--gateway=192.168.0.2", "test")
assert.ErrorContains(c, err, "")
// Multiple overlapping subnets in the same network must fail
_, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.0.0/16", "--subnet=192.168.1.0/16", "test")
assert.ErrorContains(c, err, "")
// overlapping subnets across networks must fail
// create a valid test0 network
dockerCmd(c, "network", "create", "--subnet=192.168.0.0/16", "test0")
assertNwIsAvailable(c, "test0")
// create an overlapping test1 network
_, _, err = dockerCmdWithError("network", "create", "--subnet=192.168.128.0/17", "test1")
assert.ErrorContains(c, err, "")
dockerCmd(c, "network", "rm", "test0")
assertNwNotAvailable(c, "test0")
}
func (s *DockerNetworkSuite) TestDockerNetworkDriverOptions(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, "-o", "opt1=drv1", "-o", "opt2=drv2", "testopt")
assertNwIsAvailable(c, "testopt")
gopts := remoteDriverNetworkRequest.Options[netlabel.GenericData]
assert.Assert(c, gopts != nil)
opts, ok := gopts.(map[string]interface{})
assert.Equal(c, ok, true)
assert.Equal(c, opts["opt1"], "drv1")
assert.Equal(c, opts["opt2"], "drv2")
dockerCmd(c, "network", "rm", "testopt")
assertNwNotAvailable(c, "testopt")
}
func (s *DockerNetworkSuite) TestDockerPluginV2NetworkDriver(c *testing.T) {
testRequires(c, DaemonIsLinux, IsAmd64, Network)
var (
npName = "tiborvass/test-docker-netplugin"
npTag = "latest"
npNameWithTag = npName + ":" + npTag
)
_, _, err := dockerCmdWithError("plugin", "install", "--grant-all-permissions", npNameWithTag)
assert.NilError(c, err)
out, _, err := dockerCmdWithError("plugin", "ls")
assert.NilError(c, err)
assert.Assert(c, strings.Contains(out, npName))
assert.Assert(c, strings.Contains(out, npTag))
assert.Assert(c, strings.Contains(out, "true"))
dockerCmd(c, "network", "create", "-d", npNameWithTag, "v2net")
assertNwIsAvailable(c, "v2net")
dockerCmd(c, "network", "rm", "v2net")
assertNwNotAvailable(c, "v2net")
}
func (s *DockerDaemonSuite) TestDockerNetworkNoDiscoveryDefaultBridgeNetwork(c *testing.T) {
// On default bridge network built-in service discovery should not happen
hostsFile := "/etc/hosts"
bridgeName := "external-bridge"
bridgeIP := "192.169.255.254/24"
createInterface(c, "bridge", bridgeName, bridgeIP)
defer deleteInterface(c, bridgeName)
s.d.StartWithBusybox(c, "--bridge", bridgeName)
defer s.d.Restart(c)
// run two containers and store first container's etc/hosts content
out, err := s.d.Cmd("run", "-d", "busybox", "top")
assert.NilError(c, err)
cid1 := strings.TrimSpace(out)
defer s.d.Cmd("stop", cid1)
hosts, err := s.d.Cmd("exec", cid1, "cat", hostsFile)
assert.NilError(c, err)
out, err = s.d.Cmd("run", "-d", "--name", "container2", "busybox", "top")
assert.NilError(c, err)
cid2 := strings.TrimSpace(out)
// verify first container's etc/hosts file has not changed after spawning the second named container
hostsPost, err := s.d.Cmd("exec", cid1, "cat", hostsFile)
assert.NilError(c, err)
assert.Equal(c, hosts, hostsPost, fmt.Sprintf("Unexpected %s change on second container creation", hostsFile))
// stop container 2 and verify first container's etc/hosts has not changed
_, err = s.d.Cmd("stop", cid2)
assert.NilError(c, err)
hostsPost, err = s.d.Cmd("exec", cid1, "cat", hostsFile)
assert.NilError(c, err)
assert.Equal(c, hosts, hostsPost, fmt.Sprintf("Unexpected %s change on second container creation", hostsFile))
// but discovery is on when connecting to non default bridge network
network := "anotherbridge"
out, err = s.d.Cmd("network", "create", network)
assert.NilError(c, err, out)
defer s.d.Cmd("network", "rm", network)
out, err = s.d.Cmd("network", "connect", network, cid1)
assert.NilError(c, err, out)
hosts, err = s.d.Cmd("exec", cid1, "cat", hostsFile)
assert.NilError(c, err)
hostsPost, err = s.d.Cmd("exec", cid1, "cat", hostsFile)
assert.NilError(c, err)
assert.Equal(c, hosts, hostsPost, fmt.Sprintf("Unexpected %s change on second network connection", hostsFile))
}
func (s *DockerNetworkSuite) TestDockerNetworkAnonymousEndpoint(c *testing.T) {
testRequires(c, NotArm)
hostsFile := "/etc/hosts"
cstmBridgeNw := "custom-bridge-nw"
cstmBridgeNw1 := "custom-bridge-nw1"
dockerCmd(c, "network", "create", "-d", "bridge", cstmBridgeNw)
assertNwIsAvailable(c, cstmBridgeNw)
// run two anonymous containers and store their etc/hosts content
out, _ := dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "busybox", "top")
cid1 := strings.TrimSpace(out)
hosts1 := readContainerFileWithExec(c, cid1, hostsFile)
out, _ = dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "busybox", "top")
cid2 := strings.TrimSpace(out)
// verify first container etc/hosts file has not changed
hosts1post := readContainerFileWithExec(c, cid1, hostsFile)
assert.Equal(c, string(hosts1), string(hosts1post), fmt.Sprintf("Unexpected %s change on anonymous container creation", hostsFile))
// Connect the 2nd container to a new network and verify the
// first container /etc/hosts file still hasn't changed.
dockerCmd(c, "network", "create", "-d", "bridge", cstmBridgeNw1)
assertNwIsAvailable(c, cstmBridgeNw1)
dockerCmd(c, "network", "connect", cstmBridgeNw1, cid2)
hosts2 := readContainerFileWithExec(c, cid2, hostsFile)
hosts1post = readContainerFileWithExec(c, cid1, hostsFile)
assert.Equal(c, string(hosts1), string(hosts1post), fmt.Sprintf("Unexpected %s change on container connect", hostsFile))
// start a named container
cName := "AnyName"
out, _ = dockerCmd(c, "run", "-d", "--net", cstmBridgeNw, "--name", cName, "busybox", "top")
cid3 := strings.TrimSpace(out)
// verify that container 1 and 2 can ping the named container
dockerCmd(c, "exec", cid1, "ping", "-c", "1", cName)
dockerCmd(c, "exec", cid2, "ping", "-c", "1", cName)
// Stop named container and verify first two containers' etc/hosts file hasn't changed
dockerCmd(c, "stop", cid3)
hosts1post = readContainerFileWithExec(c, cid1, hostsFile)
assert.Equal(c, string(hosts1), string(hosts1post), fmt.Sprintf("Unexpected %s change on name container creation", hostsFile))
hosts2post := readContainerFileWithExec(c, cid2, hostsFile)
assert.Equal(c, string(hosts2), string(hosts2post), fmt.Sprintf("Unexpected %s change on name container creation", hostsFile))
// verify that container 1 and 2 can't ping the named container now
_, _, err := dockerCmdWithError("exec", cid1, "ping", "-c", "1", cName)
assert.ErrorContains(c, err, "")
_, _, err = dockerCmdWithError("exec", cid2, "ping", "-c", "1", cName)
assert.ErrorContains(c, err, "")
}
func (s *DockerNetworkSuite) TestDockerNetworkLinkOnDefaultNetworkOnly(c *testing.T) {
// Legacy Link feature must work only on default network, and not across networks
cnt1 := "container1"
cnt2 := "container2"
network := "anotherbridge"
// Run first container on default network
dockerCmd(c, "run", "-d", "--name", cnt1, "busybox", "top")
// Create another network and run the second container on it
dockerCmd(c, "network", "create", network)
assertNwIsAvailable(c, network)
dockerCmd(c, "run", "-d", "--net", network, "--name", cnt2, "busybox", "top")
// Try launching a container on default network, linking to the first container. Must succeed
dockerCmd(c, "run", "-d", "--link", fmt.Sprintf("%s:%s", cnt1, cnt1), "busybox", "top")
// Try launching a container on default network, linking to the second container. Must fail
_, _, err := dockerCmdWithError("run", "-d", "--link", fmt.Sprintf("%s:%s", cnt2, cnt2), "busybox", "top")
assert.ErrorContains(c, err, "")
// Connect second container to default network. Now a container on default network can link to it
dockerCmd(c, "network", "connect", "bridge", cnt2)
dockerCmd(c, "run", "-d", "--link", fmt.Sprintf("%s:%s", cnt2, cnt2), "busybox", "top")
}
func (s *DockerNetworkSuite) TestDockerNetworkOverlayPortMapping(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// Verify exposed ports are present in ps output when running a container on
// a network managed by a driver which does not provide the default gateway
// for the container
nwn := "ov"
ctn := "bb"
port1 := 80
port2 := 443
expose1 := fmt.Sprintf("--expose=%d", port1)
expose2 := fmt.Sprintf("--expose=%d", port2)
dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, nwn)
assertNwIsAvailable(c, nwn)
dockerCmd(c, "run", "-d", "--net", nwn, "--name", ctn, expose1, expose2, "busybox", "top")
// Check docker ps o/p for last created container reports the unpublished ports
unpPort1 := fmt.Sprintf("%d/tcp", port1)
unpPort2 := fmt.Sprintf("%d/tcp", port2)
out, _ := dockerCmd(c, "ps", "-n=1")
// Missing unpublished ports in docker ps output
assert.Assert(c, strings.Contains(out, unpPort1))
// Missing unpublished ports in docker ps output
assert.Assert(c, strings.Contains(out, unpPort2))
}
func (s *DockerNetworkSuite) TestDockerNetworkDriverUngracefulRestart(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace, testEnv.IsLocalDaemon)
dnd := "dnd"
did := "did"
mux := http.NewServeMux()
server := httptest.NewServer(mux)
setupRemoteNetworkDrivers(c, mux, server.URL, dnd, did)
s.d.StartWithBusybox(c)
_, err := s.d.Cmd("network", "create", "-d", dnd, "--subnet", "1.1.1.0/24", "net1")
assert.NilError(c, err)
_, err = s.d.Cmd("run", "-d", "--net", "net1", "--name", "foo", "--ip", "1.1.1.10", "busybox", "top")
assert.NilError(c, err)
// Kill daemon and restart
assert.Assert(c, s.d.Kill() == nil)
server.Close()
startTime := time.Now().Unix()
s.d.Restart(c)
lapse := time.Now().Unix() - startTime
if lapse > 60 {
// In normal scenarios, daemon restart takes ~1 second.
// Plugin retry mechanism can delay the daemon start. systemd may not like it.
// Avoid accessing plugins during daemon bootup
c.Logf("daemon restart took too long : %d seconds", lapse)
}
// Restart the custom dummy plugin
mux = http.NewServeMux()
server = httptest.NewServer(mux)
setupRemoteNetworkDrivers(c, mux, server.URL, dnd, did)
// trying to reuse the same ip must succeed
_, err = s.d.Cmd("run", "-d", "--net", "net1", "--name", "bar", "--ip", "1.1.1.10", "busybox", "top")
assert.NilError(c, err)
}
func (s *DockerNetworkSuite) TestDockerNetworkMacInspect(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
// Verify endpoint MAC address is correctly populated in container's network settings
nwn := "ov"
ctn := "bb"
dockerCmd(c, "network", "create", "-d", dummyNetworkDriver, nwn)
assertNwIsAvailable(c, nwn)
dockerCmd(c, "run", "-d", "--net", nwn, "--name", ctn, "busybox", "top")
mac := inspectField(c, ctn, "NetworkSettings.Networks."+nwn+".MacAddress")
assert.Equal(c, mac, "a0:b1:c2:d3:e4:f5")
}
func (s *DockerSuite) TestInspectAPIMultipleNetworks(c *testing.T) {
dockerCmd(c, "network", "create", "mybridge1")
dockerCmd(c, "network", "create", "mybridge2")
out, _ := dockerCmd(c, "run", "-d", "busybox", "top")
id := strings.TrimSpace(out)
assert.NilError(c, waitRun(id))
dockerCmd(c, "network", "connect", "mybridge1", id)
dockerCmd(c, "network", "connect", "mybridge2", id)
body := getInspectBody(c, "v1.20", id)
var inspect120 v1p20.ContainerJSON
err := json.Unmarshal(body, &inspect120)
assert.NilError(c, err)
versionedIP := inspect120.NetworkSettings.IPAddress
body = getInspectBody(c, "v1.21", id)
var inspect121 types.ContainerJSON
err = json.Unmarshal(body, &inspect121)
assert.NilError(c, err)
assert.Equal(c, len(inspect121.NetworkSettings.Networks), 3)
bridge := inspect121.NetworkSettings.Networks["bridge"]
assert.Equal(c, bridge.IPAddress, versionedIP)
assert.Equal(c, bridge.IPAddress, inspect121.NetworkSettings.IPAddress)
}
func connectContainerToNetworks(c *testing.T, d *daemon.Daemon, cName string, nws []string) {
// Run a container on the default network
out, err := d.Cmd("run", "-d", "--name", cName, "busybox", "top")
assert.NilError(c, err, out)
// Attach the container to other networks
for _, nw := range nws {
out, err = d.Cmd("network", "create", nw)
assert.NilError(c, err, out)
out, err = d.Cmd("network", "connect", nw, cName)
assert.NilError(c, err, out)
}
}
func verifyContainerIsConnectedToNetworks(c *testing.T, d *daemon.Daemon, cName string, nws []string) {
// Verify container is connected to all the networks
for _, nw := range nws {
out, err := d.Cmd("inspect", "-f", fmt.Sprintf("{{.NetworkSettings.Networks.%s}}", nw), cName)
assert.NilError(c, err, out)
assert.Assert(c, out != "<no value>\n")
}
}
func (s *DockerNetworkSuite) TestDockerNetworkMultipleNetworksGracefulDaemonRestart(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
cName := "bb"
nwList := []string{"nw1", "nw2", "nw3"}
s.d.StartWithBusybox(c)
connectContainerToNetworks(c, s.d, cName, nwList)
verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList)
// Reload daemon
s.d.Restart(c)
_, err := s.d.Cmd("start", cName)
assert.NilError(c, err)
verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList)
}
func (s *DockerNetworkSuite) TestDockerNetworkMultipleNetworksUngracefulDaemonRestart(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
cName := "cc"
nwList := []string{"nw1", "nw2", "nw3"}
s.d.StartWithBusybox(c)
connectContainerToNetworks(c, s.d, cName, nwList)
verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList)
// Kill daemon and restart
assert.Assert(c, s.d.Kill() == nil)
s.d.Restart(c)
// Restart container
_, err := s.d.Cmd("start", cName)
assert.NilError(c, err)
verifyContainerIsConnectedToNetworks(c, s.d, cName, nwList)
}
func (s *DockerNetworkSuite) TestDockerNetworkRunNetByID(c *testing.T) {
out, _ := dockerCmd(c, "network", "create", "one")
containerOut, _, err := dockerCmdWithError("run", "-d", "--net", strings.TrimSpace(out), "busybox", "top")
assert.Assert(c, err == nil, containerOut)
}
func (s *DockerNetworkSuite) TestDockerNetworkHostModeUngracefulDaemonRestart(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace, testEnv.IsLocalDaemon)
s.d.StartWithBusybox(c)
// Run a few containers on host network
for i := 0; i < 10; i++ {
cName := fmt.Sprintf("hostc-%d", i)
out, err := s.d.Cmd("run", "-d", "--name", cName, "--net=host", "--restart=always", "busybox", "top")
assert.NilError(c, err, out)
// verify container has finished starting before killing daemon
err = s.d.WaitRun(cName)
assert.NilError(c, err)
}
// Kill daemon ungracefully and restart
assert.Assert(c, s.d.Kill() == nil)
s.d.Restart(c)
// make sure all the containers are up and running
for i := 0; i < 10; i++ {
err := s.d.WaitRun(fmt.Sprintf("hostc-%d", i))
assert.NilError(c, err)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectToHostFromOtherNetwork(c *testing.T) {
dockerCmd(c, "run", "-d", "--name", "container1", "busybox", "top")
assert.Assert(c, waitRun("container1") == nil)
dockerCmd(c, "network", "disconnect", "bridge", "container1")
out, _, err := dockerCmdWithError("network", "connect", "host", "container1")
assert.ErrorContains(c, err, "", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrConflictHostNetwork.Error()))
}
func (s *DockerNetworkSuite) TestDockerNetworkDisconnectFromHost(c *testing.T) {
dockerCmd(c, "run", "-d", "--name", "container1", "--net=host", "busybox", "top")
assert.Assert(c, waitRun("container1") == nil)
out, _, err := dockerCmdWithError("network", "disconnect", "host", "container1")
assert.Assert(c, err != nil, "Should err out disconnect from host")
assert.Assert(c, strings.Contains(out, runconfig.ErrConflictHostNetwork.Error()))
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectWithPortMapping(c *testing.T) {
testRequires(c, NotArm)
dockerCmd(c, "network", "create", "test1")
dockerCmd(c, "run", "-d", "--name", "c1", "-p", "5000:5000", "busybox", "top")
assert.Assert(c, waitRun("c1") == nil)
dockerCmd(c, "network", "connect", "test1", "c1")
}
func verifyPortMap(c *testing.T, container, port, originalMapping string, mustBeEqual bool) {
currentMapping, _ := dockerCmd(c, "port", container, port)
if mustBeEqual {
assert.Equal(c, currentMapping, originalMapping)
} else {
assert.Assert(c, currentMapping != originalMapping)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnectWithPortMapping(c *testing.T) {
// Connect and disconnect a container with explicit and non-explicit
// host port mapping to/from networks which do cause and do not cause
// the container default gateway to change, and verify docker port cmd
// returns congruent information
testRequires(c, NotArm)
cnt := "c1"
dockerCmd(c, "network", "create", "aaa")
dockerCmd(c, "network", "create", "ccc")
dockerCmd(c, "run", "-d", "--name", cnt, "-p", "9000:90", "-p", "70", "busybox", "top")
assert.Assert(c, waitRun(cnt) == nil)
curPortMap, _ := dockerCmd(c, "port", cnt, "70")
curExplPortMap, _ := dockerCmd(c, "port", cnt, "90")
// Connect to a network which causes the container's default gw switch
dockerCmd(c, "network", "connect", "aaa", cnt)
verifyPortMap(c, cnt, "70", curPortMap, false)
verifyPortMap(c, cnt, "90", curExplPortMap, true)
// Read current mapping
curPortMap, _ = dockerCmd(c, "port", cnt, "70")
// Disconnect from a network which causes the container's default gw switch
dockerCmd(c, "network", "disconnect", "aaa", cnt)
verifyPortMap(c, cnt, "70", curPortMap, false)
verifyPortMap(c, cnt, "90", curExplPortMap, true)
// Read current mapping
curPortMap, _ = dockerCmd(c, "port", cnt, "70")
// Connect to a network which does not cause the container's default gw switch
dockerCmd(c, "network", "connect", "ccc", cnt)
verifyPortMap(c, cnt, "70", curPortMap, true)
verifyPortMap(c, cnt, "90", curExplPortMap, true)
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectWithMac(c *testing.T) {
macAddress := "02:42:ac:11:00:02"
dockerCmd(c, "network", "create", "mynetwork")
dockerCmd(c, "run", "--name=test", "-d", "--mac-address", macAddress, "busybox", "top")
assert.Assert(c, waitRun("test") == nil)
mac1 := inspectField(c, "test", "NetworkSettings.Networks.bridge.MacAddress")
assert.Equal(c, strings.TrimSpace(mac1), macAddress)
dockerCmd(c, "network", "connect", "mynetwork", "test")
mac2 := inspectField(c, "test", "NetworkSettings.Networks.mynetwork.MacAddress")
assert.Assert(c, strings.TrimSpace(mac2) != strings.TrimSpace(mac1))
}
func (s *DockerNetworkSuite) TestDockerNetworkInspectCreatedContainer(c *testing.T) {
dockerCmd(c, "create", "--name", "test", "busybox")
networks := inspectField(c, "test", "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, "bridge"), "Should return 'bridge' network")
}
func (s *DockerNetworkSuite) TestDockerNetworkRestartWithMultipleNetworks(c *testing.T) {
dockerCmd(c, "network", "create", "test")
dockerCmd(c, "run", "--name=foo", "-d", "busybox", "top")
assert.Assert(c, waitRun("foo") == nil)
dockerCmd(c, "network", "connect", "test", "foo")
dockerCmd(c, "restart", "foo")
networks := inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, "bridge"), "Should contain 'bridge' network")
assert.Assert(c, strings.Contains(networks, "test"), "Should contain 'test' network")
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectDisconnectToStoppedContainer(c *testing.T) {
testRequires(c, testEnv.IsLocalDaemon)
dockerCmd(c, "network", "create", "test")
dockerCmd(c, "create", "--name=foo", "busybox", "top")
dockerCmd(c, "network", "connect", "test", "foo")
networks := inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, "test"), "Should contain 'test' network")
// Restart docker daemon to test the config has persisted to disk
s.d.Restart(c)
networks = inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, "test"), "Should contain 'test' network")
// start the container and test if we can ping it from another container in the same network
dockerCmd(c, "start", "foo")
assert.Assert(c, waitRun("foo") == nil)
ip := inspectField(c, "foo", "NetworkSettings.Networks.test.IPAddress")
ip = strings.TrimSpace(ip)
dockerCmd(c, "run", "--net=test", "busybox", "sh", "-c", fmt.Sprintf("ping -c 1 %s", ip))
dockerCmd(c, "stop", "foo")
// Test disconnect
dockerCmd(c, "network", "disconnect", "test", "foo")
networks = inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, !strings.Contains(networks, "test"), "Should not contain 'test' network")
// Restart docker daemon to test the config has persisted to disk
s.d.Restart(c)
networks = inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, !strings.Contains(networks, "test"), "Should not contain 'test' network")
}
func (s *DockerNetworkSuite) TestDockerNetworkDisconnectContainerNonexistingNetwork(c *testing.T) {
dockerCmd(c, "network", "create", "test")
dockerCmd(c, "run", "--net=test", "-d", "--name=foo", "busybox", "top")
networks := inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, "test"), "Should contain 'test' network")
// Stop container and remove network
dockerCmd(c, "stop", "foo")
dockerCmd(c, "network", "rm", "test")
// Test disconnecting stopped container from nonexisting network
dockerCmd(c, "network", "disconnect", "-f", "test", "foo")
networks = inspectField(c, "foo", "NetworkSettings.Networks")
assert.Assert(c, !strings.Contains(networks, "test"), "Should not contain 'test' network")
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectPreferredIP(c *testing.T) {
// create two networks
dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.28.0.0/16", "--subnet=2001:db8:1234::/64", "n0")
assertNwIsAvailable(c, "n0")
dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.30.0.0/16", "--ip-range=172.30.5.0/24", "--subnet=2001:db8:abcd::/64", "--ip-range=2001:db8:abcd::/80", "n1")
assertNwIsAvailable(c, "n1")
// run a container on first network specifying the ip addresses
dockerCmd(c, "run", "-d", "--name", "c0", "--net=n0", "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top")
assert.Assert(c, waitRun("c0") == nil)
verifyIPAddressConfig(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988")
verifyIPAddresses(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988")
// connect the container to the second network specifying an ip addresses
dockerCmd(c, "network", "connect", "--ip", "172.30.55.44", "--ip6", "2001:db8:abcd::5544", "n1", "c0")
verifyIPAddressConfig(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544")
verifyIPAddresses(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544")
// Stop and restart the container
dockerCmd(c, "stop", "c0")
dockerCmd(c, "start", "c0")
// verify requested addresses are applied and configs are still there
verifyIPAddressConfig(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988")
verifyIPAddresses(c, "c0", "n0", "172.28.99.88", "2001:db8:1234::9988")
verifyIPAddressConfig(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544")
verifyIPAddresses(c, "c0", "n1", "172.30.55.44", "2001:db8:abcd::5544")
// Still it should fail to connect to the default network with a specified IP (whatever ip)
out, _, err := dockerCmdWithError("network", "connect", "--ip", "172.21.55.44", "bridge", "c0")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkAndIP.Error()))
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectPreferredIPStoppedContainer(c *testing.T) {
// create a container
dockerCmd(c, "create", "--name", "c0", "busybox", "top")
// create a network
dockerCmd(c, "network", "create", "--ipv6", "--subnet=172.30.0.0/16", "--subnet=2001:db8:abcd::/64", "n0")
assertNwIsAvailable(c, "n0")
// connect the container to the network specifying an ip addresses
dockerCmd(c, "network", "connect", "--ip", "172.30.55.44", "--ip6", "2001:db8:abcd::5544", "n0", "c0")
verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544")
// start the container, verify config has not changed and ip addresses are assigned
dockerCmd(c, "start", "c0")
assert.Assert(c, waitRun("c0") == nil)
verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544")
verifyIPAddresses(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544")
// stop the container and check ip config has not changed
dockerCmd(c, "stop", "c0")
verifyIPAddressConfig(c, "c0", "n0", "172.30.55.44", "2001:db8:abcd::5544")
}
func (s *DockerNetworkSuite) TestDockerNetworkUnsupportedRequiredIP(c *testing.T) {
// requested IP is not supported on predefined networks
for _, mode := range []string{"none", "host", "bridge", "default"} {
checkUnsupportedNetworkAndIP(c, mode)
}
// requested IP is not supported on networks with no user defined subnets
dockerCmd(c, "network", "create", "n0")
assertNwIsAvailable(c, "n0")
out, _, err := dockerCmdWithError("run", "-d", "--ip", "172.28.99.88", "--net", "n0", "busybox", "top")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkNoSubnetAndIP.Error()))
out, _, err = dockerCmdWithError("run", "-d", "--ip6", "2001:db8:1234::9988", "--net", "n0", "busybox", "top")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkNoSubnetAndIP.Error()))
dockerCmd(c, "network", "rm", "n0")
assertNwNotAvailable(c, "n0")
}
func checkUnsupportedNetworkAndIP(c *testing.T, nwMode string) {
out, _, err := dockerCmdWithError("run", "-d", "--net", nwMode, "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkAndIP.Error()))
}
func verifyIPAddressConfig(c *testing.T, cName, nwname, ipv4, ipv6 string) {
if ipv4 != "" {
out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAMConfig.IPv4Address", nwname))
assert.Equal(c, strings.TrimSpace(out), ipv4)
}
if ipv6 != "" {
out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAMConfig.IPv6Address", nwname))
assert.Equal(c, strings.TrimSpace(out), ipv6)
}
}
func verifyIPAddresses(c *testing.T, cName, nwname, ipv4, ipv6 string) {
out := inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.IPAddress", nwname))
assert.Equal(c, strings.TrimSpace(out), ipv4)
out = inspectField(c, cName, fmt.Sprintf("NetworkSettings.Networks.%s.GlobalIPv6Address", nwname))
assert.Equal(c, strings.TrimSpace(out), ipv6)
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectLinkLocalIP(c *testing.T) {
// create one test network
dockerCmd(c, "network", "create", "--ipv6", "--subnet=2001:db8:1234::/64", "n0")
assertNwIsAvailable(c, "n0")
// run a container with incorrect link-local address
_, _, err := dockerCmdWithError("run", "--link-local-ip", "169.253.5.5", "busybox", "true")
assert.ErrorContains(c, err, "")
_, _, err = dockerCmdWithError("run", "--link-local-ip", "2001:db8::89", "busybox", "true")
assert.ErrorContains(c, err, "")
// run two containers with link-local ip on the test network
dockerCmd(c, "run", "-d", "--name", "c0", "--net=n0", "--link-local-ip", "169.254.7.7", "--link-local-ip", "fe80::254:77", "busybox", "top")
assert.Assert(c, waitRun("c0") == nil)
dockerCmd(c, "run", "-d", "--name", "c1", "--net=n0", "--link-local-ip", "169.254.8.8", "--link-local-ip", "fe80::254:88", "busybox", "top")
assert.Assert(c, waitRun("c1") == nil)
// run a container on the default network and connect it to the test network specifying a link-local address
dockerCmd(c, "run", "-d", "--name", "c2", "busybox", "top")
assert.Assert(c, waitRun("c2") == nil)
dockerCmd(c, "network", "connect", "--link-local-ip", "169.254.9.9", "n0", "c2")
// verify the three containers can ping each other via the link-local addresses
_, _, err = dockerCmdWithError("exec", "c0", "ping", "-c", "1", "169.254.8.8")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "c1", "ping", "-c", "1", "169.254.9.9")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "c2", "ping", "-c", "1", "169.254.7.7")
assert.NilError(c, err)
// Stop and restart the three containers
dockerCmd(c, "stop", "c0")
dockerCmd(c, "stop", "c1")
dockerCmd(c, "stop", "c2")
dockerCmd(c, "start", "c0")
dockerCmd(c, "start", "c1")
dockerCmd(c, "start", "c2")
// verify the ping again
_, _, err = dockerCmdWithError("exec", "c0", "ping", "-c", "1", "169.254.8.8")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "c1", "ping", "-c", "1", "169.254.9.9")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "c2", "ping", "-c", "1", "169.254.7.7")
assert.NilError(c, err)
}
func (s *DockerSuite) TestUserDefinedNetworkConnectDisconnectLink(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm)
dockerCmd(c, "network", "create", "-d", "bridge", "foo1")
dockerCmd(c, "network", "create", "-d", "bridge", "foo2")
dockerCmd(c, "run", "-d", "--net=foo1", "--name=first", "busybox", "top")
assert.Assert(c, waitRun("first") == nil)
// run a container in a user-defined network with a link for an existing container
// and a link for a container that doesn't exist
dockerCmd(c, "run", "-d", "--net=foo1", "--name=second", "--link=first:FirstInFoo1",
"--link=third:bar", "busybox", "top")
assert.Assert(c, waitRun("second") == nil)
// ping to first and its alias FirstInFoo1 must succeed
_, _, err := dockerCmdWithError("exec", "second", "ping", "-c", "1", "first")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo1")
assert.NilError(c, err)
// connect first container to foo2 network
dockerCmd(c, "network", "connect", "foo2", "first")
// connect second container to foo2 network with a different alias for first container
dockerCmd(c, "network", "connect", "--link=first:FirstInFoo2", "foo2", "second")
// ping the new alias in network foo2
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo2")
assert.NilError(c, err)
// disconnect first container from foo1 network
dockerCmd(c, "network", "disconnect", "foo1", "first")
// link in foo1 network must fail
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo1")
assert.ErrorContains(c, err, "")
// link in foo2 network must succeed
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "FirstInFoo2")
assert.NilError(c, err)
}
func (s *DockerNetworkSuite) TestDockerNetworkDisconnectDefault(c *testing.T) {
netWorkName1 := "test1"
netWorkName2 := "test2"
containerName := "foo"
dockerCmd(c, "network", "create", netWorkName1)
dockerCmd(c, "network", "create", netWorkName2)
dockerCmd(c, "create", "--name", containerName, "busybox", "top")
dockerCmd(c, "network", "connect", netWorkName1, containerName)
dockerCmd(c, "network", "connect", netWorkName2, containerName)
dockerCmd(c, "network", "disconnect", "bridge", containerName)
dockerCmd(c, "start", containerName)
assert.Assert(c, waitRun(containerName) == nil)
networks := inspectField(c, containerName, "NetworkSettings.Networks")
assert.Assert(c, strings.Contains(networks, netWorkName1), fmt.Sprintf("Should contain '%s' network", netWorkName1))
assert.Assert(c, strings.Contains(networks, netWorkName2), fmt.Sprintf("Should contain '%s' network", netWorkName2))
assert.Assert(c, !strings.Contains(networks, "bridge"), "Should not contain 'bridge' network")
}
func (s *DockerNetworkSuite) TestDockerNetworkConnectWithAliasOnDefaultNetworks(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm)
defaults := []string{"bridge", "host", "none"}
out, _ := dockerCmd(c, "run", "-d", "--net=none", "busybox", "top")
containerID := strings.TrimSpace(out)
for _, net := range defaults {
res, _, err := dockerCmdWithError("network", "connect", "--alias", "alias"+net, net, containerID)
assert.ErrorContains(c, err, "")
assert.Assert(c, strings.Contains(res, runconfig.ErrUnsupportedNetworkAndAlias.Error()))
}
}
func (s *DockerSuite) TestUserDefinedNetworkConnectDisconnectAlias(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace, NotArm)
dockerCmd(c, "network", "create", "-d", "bridge", "net1")
dockerCmd(c, "network", "create", "-d", "bridge", "net2")
cid, _ := dockerCmd(c, "run", "-d", "--net=net1", "--name=first", "--net-alias=foo", "busybox:glibc", "top")
assert.Assert(c, waitRun("first") == nil)
dockerCmd(c, "run", "-d", "--net=net1", "--name=second", "busybox:glibc", "top")
assert.Assert(c, waitRun("second") == nil)
// ping first container and its alias
_, _, err := dockerCmdWithError("exec", "second", "ping", "-c", "1", "first")
assert.NilError(c, err)
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "foo")
assert.NilError(c, err)
// ping first container's short-id alias
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", stringid.TruncateID(cid))
assert.NilError(c, err)
// connect first container to net2 network
dockerCmd(c, "network", "connect", "--alias=bar", "net2", "first")
// connect second container to foo2 network with a different alias for first container
dockerCmd(c, "network", "connect", "net2", "second")
// ping the new alias in network foo2
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "bar")
assert.NilError(c, err)
// disconnect first container from net1 network
dockerCmd(c, "network", "disconnect", "net1", "first")
// ping to net1 scoped alias "foo" must fail
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "foo")
assert.ErrorContains(c, err, "")
// ping to net2 scoped alias "bar" must still succeed
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "bar")
assert.NilError(c, err)
// ping to net2 scoped alias short-id must still succeed
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", stringid.TruncateID(cid))
assert.NilError(c, err)
// verify the alias option is rejected when running on predefined network
out, _, err := dockerCmdWithError("run", "--rm", "--name=any", "--net-alias=any", "busybox:glibc", "true")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkAndAlias.Error()))
// verify the alias option is rejected when connecting to predefined network
out, _, err = dockerCmdWithError("network", "connect", "--alias=any", "bridge", "first")
assert.Assert(c, err != nil, "out: %s", out)
assert.Assert(c, strings.Contains(out, runconfig.ErrUnsupportedNetworkAndAlias.Error()))
}
func (s *DockerSuite) TestUserDefinedNetworkConnectivity(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace)
dockerCmd(c, "network", "create", "-d", "bridge", "br.net1")
dockerCmd(c, "run", "-d", "--net=br.net1", "--name=c1.net1", "busybox:glibc", "top")
assert.Assert(c, waitRun("c1.net1") == nil)
dockerCmd(c, "run", "-d", "--net=br.net1", "--name=c2.net1", "busybox:glibc", "top")
assert.Assert(c, waitRun("c2.net1") == nil)
// ping first container by its unqualified name
_, _, err := dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1")
assert.NilError(c, err)
// ping first container by its qualified name
_, _, err = dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1.br.net1")
assert.NilError(c, err)
// ping with first qualified name masked by an additional domain. should fail
_, _, err = dockerCmdWithError("exec", "c2.net1", "ping", "-c", "1", "c1.net1.br.net1.google.com")
assert.ErrorContains(c, err, "")
}
func (s *DockerSuite) TestEmbeddedDNSInvalidInput(c *testing.T) {
testRequires(c, DaemonIsLinux, NotUserNamespace)
dockerCmd(c, "network", "create", "-d", "bridge", "nw1")
// Sending garbage to embedded DNS shouldn't crash the daemon
dockerCmd(c, "run", "-i", "--net=nw1", "--name=c1", "debian:bullseye-slim", "bash", "-c", "echo InvalidQuery > /dev/udp/127.0.0.11/53")
}
func (s *DockerSuite) TestDockerNetworkConnectFailsNoInspectChange(c *testing.T) {
dockerCmd(c, "run", "-d", "--name=bb", "busybox", "top")
assert.Assert(c, waitRun("bb") == nil)
defer dockerCmd(c, "stop", "bb")
ns0 := inspectField(c, "bb", "NetworkSettings.Networks.bridge")
// A failing redundant network connect should not alter current container's endpoint settings
_, _, err := dockerCmdWithError("network", "connect", "bridge", "bb")
assert.ErrorContains(c, err, "")
ns1 := inspectField(c, "bb", "NetworkSettings.Networks.bridge")
assert.Equal(c, ns1, ns0)
}
func (s *DockerSuite) TestDockerNetworkInternalMode(c *testing.T) {
dockerCmd(c, "network", "create", "--driver=bridge", "--internal", "internal")
assertNwIsAvailable(c, "internal")
nr := getNetworkResource(c, "internal")
assert.Assert(c, nr.Internal)
dockerCmd(c, "run", "-d", "--net=internal", "--name=first", "busybox:glibc", "top")
assert.Assert(c, waitRun("first") == nil)
dockerCmd(c, "run", "-d", "--net=internal", "--name=second", "busybox:glibc", "top")
assert.Assert(c, waitRun("second") == nil)
out, _, err := dockerCmdWithError("exec", "first", "ping", "-W", "4", "-c", "1", "8.8.8.8")
assert.ErrorContains(c, err, "")
assert.Assert(c, strings.Contains(out, "100% packet loss"))
_, _, err = dockerCmdWithError("exec", "second", "ping", "-c", "1", "first")
assert.NilError(c, err)
}
// Test for #21401
func (s *DockerNetworkSuite) TestDockerNetworkCreateDeleteSpecialCharacters(c *testing.T) {
dockerCmd(c, "network", "create", "test@#$")
assertNwIsAvailable(c, "test@#$")
dockerCmd(c, "network", "rm", "test@#$")
assertNwNotAvailable(c, "test@#$")
dockerCmd(c, "network", "create", "kiwl$%^")
assertNwIsAvailable(c, "kiwl$%^")
dockerCmd(c, "network", "rm", "kiwl$%^")
assertNwNotAvailable(c, "kiwl$%^")
}
func (s *DockerDaemonSuite) TestDaemonRestartRestoreBridgeNetwork(t *testing.T) {
s.d.StartWithBusybox(t, "--live-restore")
defer s.d.Stop(t)
oldCon := "old"
_, err := s.d.Cmd("run", "-d", "--name", oldCon, "-p", "80:80", "busybox", "top")
if err != nil {
t.Fatal(err)
}
oldContainerIP, err := s.d.Cmd("inspect", "-f", "{{ .NetworkSettings.Networks.bridge.IPAddress }}", oldCon)
if err != nil {
t.Fatal(err)
}
// Kill the daemon
if err := s.d.Kill(); err != nil {
t.Fatal(err)
}
// restart the daemon
s.d.Start(t, "--live-restore")
// start a new container, the new container's ip should not be the same with
// old running container.
newCon := "new"
_, err = s.d.Cmd("run", "-d", "--name", newCon, "busybox", "top")
if err != nil {
t.Fatal(err)
}
newContainerIP, err := s.d.Cmd("inspect", "-f", "{{ .NetworkSettings.Networks.bridge.IPAddress }}", newCon)
if err != nil {
t.Fatal(err)
}
if strings.Compare(strings.TrimSpace(oldContainerIP), strings.TrimSpace(newContainerIP)) == 0 {
t.Fatalf("new container ip should not equal to old running container ip")
}
// start a new container, the new container should ping old running container
_, err = s.d.Cmd("run", "-t", "busybox", "ping", "-c", "1", oldContainerIP)
if err != nil {
t.Fatal(err)
}
// start a new container, trying to publish port 80:80 should fail
out, err := s.d.Cmd("run", "-p", "80:80", "-d", "busybox", "top")
if err == nil || !strings.Contains(out, "Bind for 0.0.0.0:80 failed: port is already allocated") {
t.Fatalf("80 port is allocated to old running container, it should failed on allocating to new container")
}
// kill old running container and try to allocate again
_, err = s.d.Cmd("kill", oldCon)
if err != nil {
t.Fatal(err)
}
id, err := s.d.Cmd("run", "-p", "80:80", "-d", "busybox", "top")
if err != nil {
t.Fatal(err)
}
// Cleanup because these containers will not be shut down by daemon
out, err = s.d.Cmd("stop", newCon)
if err != nil {
t.Fatalf("err: %v %v", err, out)
}
_, err = s.d.Cmd("stop", strings.TrimSpace(id))
if err != nil {
t.Fatal(err)
}
}
func (s *DockerNetworkSuite) TestDockerNetworkFlagAlias(c *testing.T) {
dockerCmd(c, "network", "create", "user")
output, status := dockerCmd(c, "run", "--rm", "--network=user", "--network-alias=foo", "busybox", "true")
assert.Equal(c, status, 0, fmt.Sprintf("unexpected status code %d (%s)", status, output))
output, status, _ = dockerCmdWithError("run", "--rm", "--network=user", "--net-alias=foo", "--network-alias=bar", "busybox", "true")
assert.Equal(c, status, 0, fmt.Sprintf("unexpected status code %d (%s)", status, output))
}
func (s *DockerNetworkSuite) TestDockerNetworkValidateIP(c *testing.T) {
_, _, err := dockerCmdWithError("network", "create", "--ipv6", "--subnet=172.28.0.0/16", "--subnet=2001:db8:1234::/64", "mynet")
assert.NilError(c, err)
assertNwIsAvailable(c, "mynet")
_, _, err = dockerCmdWithError("run", "-d", "--name", "mynet0", "--net=mynet", "--ip", "172.28.99.88", "--ip6", "2001:db8:1234::9988", "busybox", "top")
assert.NilError(c, err)
assert.Assert(c, waitRun("mynet0") == nil)
verifyIPAddressConfig(c, "mynet0", "mynet", "172.28.99.88", "2001:db8:1234::9988")
verifyIPAddresses(c, "mynet0", "mynet", "172.28.99.88", "2001:db8:1234::9988")
_, _, err = dockerCmdWithError("run", "--net=mynet", "--ip", "mynet_ip", "--ip6", "2001:db8:1234::9999", "busybox", "top")
assert.ErrorContains(c, err, "invalid IPv4 address")
_, _, err = dockerCmdWithError("run", "--net=mynet", "--ip", "172.28.99.99", "--ip6", "mynet_ip6", "busybox", "top")
assert.ErrorContains(c, err, "invalid IPv6 address")
// This is a case of IPv4 address to `--ip6`
_, _, err = dockerCmdWithError("run", "--net=mynet", "--ip6", "172.28.99.99", "busybox", "top")
assert.ErrorContains(c, err, "invalid IPv6 address")
// This is a special case of an IPv4-mapped IPv6 address
_, _, err = dockerCmdWithError("run", "--net=mynet", "--ip6", "::ffff:172.28.99.99", "busybox", "top")
assert.ErrorContains(c, err, "invalid IPv6 address")
}
// Test case for 26220
func (s *DockerNetworkSuite) TestDockerNetworkDisconnectFromBridge(c *testing.T) {
out, _ := dockerCmd(c, "network", "inspect", "--format", "{{.Id}}", "bridge")
network := strings.TrimSpace(out)
name := "test"
dockerCmd(c, "create", "--name", name, "busybox", "top")
_, _, err := dockerCmdWithError("network", "disconnect", network, name)
assert.NilError(c, err)
}
// TestConntrackFlowsLeak covers the failure scenario of ticket: https://github.com/docker/docker/issues/8795
// Validates that conntrack is correctly cleaned once a container is destroyed
func (s *DockerNetworkSuite) TestConntrackFlowsLeak(c *testing.T) {
testRequires(c, IsAmd64, DaemonIsLinux, Network, testEnv.IsLocalDaemon)
// Create a new network
cli.DockerCmd(c, "network", "create", "--subnet=192.168.10.0/24", "--gateway=192.168.10.1", "-o", "com.docker.network.bridge.host_binding_ipv4=192.168.10.1", "testbind")
assertNwIsAvailable(c, "testbind")
// Launch the server, this will remain listening on an exposed port and reply to any request in a ping/pong fashion
cmd := "while true; do echo hello | nc -w 1 -l -u -p 8080; done"
cli.DockerCmd(c, "run", "-d", "--name", "server", "--net", "testbind", "-p", "8080:8080/udp", "busybox", "sh", "-c", cmd)
// Launch a container client, here the objective is to create a flow that is natted in order to expose the bug
cmd = "echo world | nc -w 1 -u 192.168.10.1 8080"
cli.DockerCmd(c, "run", "-d", "--name", "client", "--net=host", "busybox", "sh", "-c", cmd)
// Get all the flows using netlink
flows, err := netlink.ConntrackTableList(netlink.ConntrackTable, unix.AF_INET)
assert.NilError(c, err)
var flowMatch int
for _, flow := range flows {
// count only the flows that we are interested in, skipping others that can be laying around the host
if flow.Forward.Protocol == unix.IPPROTO_UDP &&
flow.Forward.DstIP.Equal(net.ParseIP("192.168.10.1")) &&
flow.Forward.DstPort == 8080 {
flowMatch++
}
}
// The client should have created only 1 flow
assert.Equal(c, flowMatch, 1)
// Now delete the server, this will trigger the conntrack cleanup
cli.DockerCmd(c, "rm", "-fv", "server")
// Fetch again all the flows and validate that there is no server flow in the conntrack laying around
flows, err = netlink.ConntrackTableList(netlink.ConntrackTable, unix.AF_INET)
assert.NilError(c, err)
flowMatch = 0
for _, flow := range flows {
if flow.Forward.Protocol == unix.IPPROTO_UDP &&
flow.Forward.DstIP.Equal(net.ParseIP("192.168.10.1")) &&
flow.Forward.DstPort == 8080 {
flowMatch++
}
}
// All the flows have to be gone
assert.Equal(c, flowMatch, 0)
}